Connector systems for electrosurgical generator

ABSTRACT

A connector system for coupling electrosurgical instruments to electrosurgical generators is provided. The connector system includes a plug portion connectable to an electrosurgical instrument, the plug portion of the electrosurgical instrument having a shape specific to a particular manufacturer; and a plug receptacle portion supported on the electrosurgical generator; the plug receptacle portion being shaped to receive the plug portion of the electrosurgical instrument of the particular manufacturer and the plug portion of the electrosurgical instrument of any other manufacturer.

BACKGROUND

1. Technical Field

The present disclosure relates to electrosurgical instrument systemsand, more particularly, to connector systems for selectively connectingelectrosurgical instruments and electrosurgical generators to oneanother.

2. Background

Electrosurgical instrument systems have become widely used by surgeonsin recent years. Accordingly, a need has developed for equipment that iseasy to handle and operate, is reliable and is safe. By and large, mostelectrosurgical instrument systems typically include a hand-heldelectrosurgical instrument or pencil electrically connected to a sourceof electrosurgical energy (e.g., an electrosurgical generator). Theelectrosurgical instrument transfers radio-frequency (RF) electricalenergy to a tissue site. The electrosurgical energy is returned to theelectrosurgical generator via a return electrode pad positioned under apatient (i.e., a monopolar system configuration) or a smaller returnelectrode positionable in bodily contact with or immediately adjacent tothe surgical site (i.e., a bipolar system configuration). The waveformsproduced by the electrosurgical generator yield a predeterminedelectrosurgical effect known generally as electrosurgical figuration.

Recently, electrosurgical instrument systems have been increasinglyprovided with coupling and/or connecting systems (e.g., a plug) forremovably connecting the electrosurgical instrument to theelectrosurgical generator. Typically, the electrosurgical instrument isprovided with a so called “male” connector while the electrosurgicalgenerator is provided with the corresponding “female” connector.

Since electrosurgery requires controlled application of radio frequencyenergy to an operative tissue site, it is important that the appropriateelectrosurgical generator be correctly and/or properly mated with theelectrosurgical instrument for the specific electrosurgical procedure.Due to the variety of operative, electrosurgical procedures, requiringvarious levels of radio frequency energy delivery from an attachedinstrument, issues arise with the mismatching of electrosurgicalinstruments and electrosurgical generators.

Accordingly, a need exists for a connecting system, for electrosurgicalgenerators which allow various surgical instruments to be selectivelyconnected to corresponding electrosurgical generators.

SUMMARY

The present disclosure relates to connector systems for connecting anelectrosurgical instrument to an electrosurgical generator. According toone particularly advantageous embodiment of the present disclosure, theconnector system includes a plug portion connected to theelectrosurgical instrument and including a profile or shape which isselectively mateable with a plug receptacle portion. Advantageously, theplug receptacle portion is retained in the electrosurgical generator andis backward compatible, i.e., able to receive both old flying leadelectrosurgical instruments or 2-pin, 3-pin or 4-pin electricalinstruments and able to selectively receive enhanced surgical deviceswith multiple electrical connections.

In one embodiment, the plug portion includes a plug housing having apower pin extending therefrom. The power pin is advantageouslypositioned closer to a first side edge of the plug housing than a secondside edge thereof, wherein the second side edge is opposite the firstside edge.

Advantageously, the plug portion includes at least one position pinextending from the plug housing. Preferably, a first position pinextends from a center of the plug housing in substantially the samedirection as the power pin. A second position pin may be included whichextends from the plug housing at a location off-set from the centerthereof and in the same direction as the power pin.

The connector system may also advantageously include a prong extendingfrom the plug housing and substantially in the same direction as thepower pin. The prong is desirably positioned closer to a first side edgeof the plug housing than a second side edge thereof, wherein the secondside edge is opposite the first side edge thereof.

The prong preferably includes a plurality of electrical contacts whichprovide electrical continuity to the electrosurgical generator. In oneembodiment, the prong has a generally L-shaped cross-sectional profilefor use with a six (6) contact electrosurgical system. In anotherembodiment, the prong has a generally rectilinear cross section orprofile for use with a four (4) contact system. Advantageously, theL-shaped cross-sectional profile blocks insertion of a plug portion intothe plug receptacle portion which is upside down. Other shapes are alsoenvisioned, e.g., generally rectangular, for lesser contact systems,e.g., a four (4) contact system.

Preferably, the plug receptacle portion is operatively retained in theelectrosurgical generator and defines a recess for receipt of the plugportion therein. The plug receptacle portion advantageously includes aprong receptacle formed therein, the prong receptacle being shaped anddimensioned to receive the prong therein. It is envisioned that the plugreceptacle portion can include a plurality of apertures formed thereinfor receiving the power pin and the position pins. Preferably, eachaperture includes a contact terminal operatively associated therewith.The plug receptacle portion advantageously includes at least one contactpin extending therethrough which is positioned to contact a respectiveone of the electrical contacts of the prong.

The prong desirably has an overall width which is less than about 0.43inches and an overall height which is less than about 0.38 inches forthe L-shaped six (6) contact prong. For prongs with less than six (6)contacts, e.g., four (4) contacts, the overall height may be less. Theprong receptacle desirably has an overall width which is greater thanabout 0.39 inches and an overall height which is greater than about0.324 inches.

In one embodiment of the connector system, the connector system includesa tactile feedback mechanism which provides positive tactile feedback tothe user that the plug portion has been properly inserted into the plugreceptacle portion. Advantageously, the tactile feedback mechanismincludes a first post extending through and pivotally supported on theplug receptacle portion and a second post extending through andsupported on the plug receptacle portion. Preferably, the first post isspring biased. The tactile feedback mechanism also includes a linkagemember which extends between the first post and the second post. Thelinkage member includes a first arm which extends radially from thefirst post and a second arm which is supported on and extends from thesecond post.

A camming pin extends through a distal end of the first arm. The cammingpin preferably includes a first portion slidably receivable in anelongate slot formed in the second arm. A second portion is slidablyreceived in an arcuate slot formed in the prong receptacle. The secondportion is extendable to engage a groove formed in a lower surface ofthe prong. A spring is positioned to bias the first portion to adistal-most position in the elongate slot.

In one embodiment, the plug portion includes symbology provided on asurface thereof which includes information regarding the operativeparameters of the electrosurgical instrument.

The present disclosure also relates to a connector system for connectingan electrosurgical instrument to an electrosurgical generator whichincludes a plug portion and a plug receptacle portion disposed on thegenerator. The plug portion includes a plurality of mechanicalinterfaces which selectively mate with a corresponding plurality ofmechanical interfaces in the plug receptacle portion. A tactile feedbackmechanism is included for providing positive feedback to the user thatthe mechanical interfaces of the plug portion have been properly matedwith the corresponding mechanical interfaces of the plug receptacleportion.

The tactile feedback mechanism includes a pair of first and second postsextending through and pivotally supported on the plug receptacle portionand a linkage member extending between the first post and the secondpost. The linkage member has a first arm extending radially from thefirst post and a second arm supported on and extending from the secondpost. A camming pin is included which extends through a distal end ofthe first arm. Upon insertion of the plug portion into the receptacleportion, the camming pin rides along a slot disposed in the second armto initially compress a spring. After a predetermined point of thecamming pin riding along the slot, the spring subsequently expands todrive the camming pin through the slot thus towing the prong portioninto prong receptacle portion.

Other objects and features of the present disclosure will becomeapparent from consideration of the following description taken inconjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Other objects and features of the present invention will become apparentfrom the following detailed description considered in connection withthe accompanied drawings. It should be understood, however, that thedrawings are designed for the purpose of illustration only and not as adefinition of the limits of the invention.

FIG. 1 is a schematic illustration of an electrosurgical instrumentsystem in accordance with the present disclosure;

FIG. 2 is an enlarged perspective view of a connector system, inaccordance with an embodiment of the present disclosure, as seen fromabove;

FIG. 3 is an enlarged perspective view of the connector system of FIG.2, as seen from below;

FIG. 4 is an enlarged exploded perspective view of the plug portion ofthe connector system of FIGS. 2-3;

FIG. 5 is a front elevational view of the receptacle portion of theconnector system of FIGS. 2-3;

FIG. 6 is a front perspective view of the receptacle portion of theconnector system of FIGS. 2-3;

FIG. 7 is an enlarged top perspective view of connector system of FIGS.2-3, with portions of the receptacle portion cut away, illustrating themating and/or joining of the plug portion with the receptacle portion;

FIG. 8 is an enlarged top perspective view of the connector system ofFIGS. 2-3, with portions of the receptacle portion cut away,illustrating the plug portion mated with the receptacle portion;

FIG. 9 is an enlarged bottom perspective view of the connector system ofFIGS. 2-3, with portions of the receptacle portion broken away,illustrating the plug portion mated with the receptacle portion;

FIG. 10 is a perspective view of a plug portion in accordance with analternate embodiment of the present disclosure, as seen from above;

FIG. 11 is a perspective view of the plug portion of FIG. 10 as seenfrom below;

FIG. 12 is a front elevational view of a receptacle portion according toan alternate embodiment of the present disclosure;

FIG. 13 is a rear perspective view of the receptacle portion of FIG. 12;and

FIG. 14 is a perspective view of a plug portion in accordance with yetanother embodiment of the present disclosure.

DETAILED DESCRIPTION

Embodiments of the presently disclosed connector system forelectrosurgical generators are described in detail herein with referenceto the drawing figures wherein like reference numerals identify similaror identical elements. In the drawings and in the description whichfollows, the term “proximal”, as is traditional, will refer to the endof the apparatus and/or device which is closest to the operator, whilethe term “distal” will refer to the end of the apparatus and/or devicewhich is furthest from the operator.

Referring initially to FIG. 1, there is seen a perspective view of anelectrosurgical instrument system in accordance with an exemplaryembodiment of the present disclosure, generally indicated as referencenumeral 10. Electrosurgical instrument system 10 includes anelectrosurgical instrument 12 (e.g., an electrosurgical pencil) which iselectrically connectable to a source of electrosurgical energy 14 (e.g.,an electrosurgical generator).

Electrosurgical pencil 12 includes a housing 16 configured and adaptedto support a blade receptacle 18 at a distal end thereof which, in turn,receives a replaceable electrocautery blade 20 therein. Electrosurgicalpencil 12 further includes at least one activation button 22 supportedon an outer surface of housing 16. Activation button(s) 22 are operableto control the supply of RF electrical energy to blade 20 fromelectrosurgical generator 14.

By way of example only, electrosurgical generator 14 may be any one ofthe following, or equivalents thereof: the “FORCE FX”, “FORCE 2” or“FORCE 4” generators manufactured by Valleylab, Inc. of Boulder, Colo.It is contemplated that electrosurgical generator 14 can be preset toselectively provide an appropriate first predetermined RF signal (e.g.,about 1 to 300 watts) for tissue cutting and an appropriate secondpredetermined RF signal (e.g., about 1 to 120 watts) for tissuecoagulation. However, as will be described in greater detail below,electrosurgical generator 14 preferably is adapted to automaticallyconfigure itself to transmit particular RF signals depending on theparticular electrosurgical instrument connected thereto.

As seen in FIGS. 1-9, electrosurgical instrument system 10 is providedwith a connector system 100, as best seen in FIG. 2, which is configuredand adapted to selectively connect particular electrosurgicalinstruments (e.g., electrosurgical pencils 12) to particular sources ofelectrosurgical energy (e.g., electrosurgical generators 14). Connectorsystem 100 includes a plug or male portion 102 operatively associatedwith electrosurgical instrument 12 via a connecting wire 24 and areceptacle, socket or female portion 104 which is operatively associatedwith electrosurgical generator 14. Preferably, receptacle portion 104 is“backward compatible”, i.e., able to receive or connect to plug portions102 of the various electrosurgical instruments disclosed herein as wellas able to receive or connect other prior electrosurgical instrumentswhich include less pins or prongs.

With reference to FIG. 4, plug portion 102 includes a housing portion106 having a first-half section 106 a and a second half-section 106 boperatively engagable with one another, preferably, via a snap-fitengagement. Half-sections 106 a, 106 b are configured and adapted toretain a common power pin 108 and a plurality of electrical contacts 110therebetween, as will be described in greater detail below.

Plug portion 102 includes a power pin 108 extending distally fromhousing 106 at a location preferably between first half-section 106 aand second half-section 106 b. Preferably, power pin 108 is positionedto be off center, i.e., closer to one side edge of housing 106 than theother. Plug portion 102 further includes at least one, preferably, apair of position pins 112 also extending from housing 106. Position pins112 are preferably positioned between half-sections 106 a and 106 b andare oriented in the same direction as power pin 108. Desirably, a firstposition pin 112 a is positioned in close proximity to a center ofhousing 106 and a second position pin 112 b is positioned to be offcenter and in close proximity to an opposite side edge of housing 106 ascompared to power pin 108. Pins 112 a, 112 b and 108 are preferablylocated on plug portion 102 at positions which correspond to the pinpositions of earlier connections which are compatible to earlier knowngenerators.

Plug portion 102 further includes a prong 114 extending from housing106. In particular, prong 114 includes a body portion 116 (see FIG. 4)extending from second half-section 106 b of housing 106 and a coverportion 118 extending from first half-section 106 a of housing 106. Inthis manner, when half-sections 106 a, 106 b are joined to one another,cover portion 118 of prong 114 encloses body portion 116. Preferably,prong 114 is positioned between power pin 108 and first position pin 112a. Prong 114 is configured and adapted to retain electrical contacts 110therein such that a portion of each contact 110 is exposed along a frontor distal edge thereof. While four contacts 110 are shown, it isenvisioned that any number of contacts 110 can be provided, includingand not limited to two, six and eight. Prong 114 is dimensioned to havean overall width which is less than about 0.43 inches and an overallheight which is less than about 0.38 inches.

With continued reference to FIG. 4, connecting wire 24 includes a powersupplying wire 120 electrically connected to power pin 108 and aplurality of control wires 122 electrically connected to contacts 110.

With reference to FIGS. 2 and 5-6, receptacle portion 104 of connectorsystem 100 includes a housing 130 having a recess 132 formed therein.Recess 132 is configured and dimensioned to receive plug portion 102therein. Recess 132 includes a plurality of apertures 134 formed in arear wall 136 thereof. Preferably, three apertures 134 a-134 c areprovided. Apertures 134 a-134 c are preferably positioned and sized torespectively receive power pin 108 and position pins 112 therein whenplug portion 102 is inserted into receptacle portion 104. As mentionedabove, preferably, apertures 134 a-134 c are positioned to receiveconnector pins from prior known connectors to enable the connectorsystem to be backward compatible.

As seen in FIG. 2, and in greater detail in FIGS. 7-9, receptacleportion 104 further includes contact terminals 138 a-138 c disposedbehind rear wall 136 and in registration with a respective aperture 134a-134 c. Contact terminals 138 a-138 c are configured and dimensioned toreceive power pin 108 and position pins 112 therein. While only contactterminal 138 a needs to be configured and adapted to create anelectrical interface with power pin 108, it is within the scope of thepresent disclosure to have each contact terminal 138 a-138 c configuredand adapted to provide electrical interfaces. For example, contactterminals 138 a-138 c can be fabricated from an electrically conductivematerial such that when plug portion 102 is inserted into receptacleportion 104 and power pin 108 is inserted into corresponding contactterminal 138 a through aperture 134 a, contact terminal 138 aelectrically engages power pin 108 and, in turn, enables transmission ofRF energy from electrosurgical generator 14 to electrosurgicalinstrument 12. One practicable example would be to utilize the positiveengagement of pins 112 a, 112 b within the contact terminals 138 a, 138b as a safety mechanism, i.e., pins 112 a, 112 b must be properly andfully seated within terminals 138 a, 138 b to allow the generator tosupply energy to the instrument.

With continued reference to FIGS. 5 and 6, receptacle portion 104further includes a prong receptacle 140 formed in rear wall 136. Prongreceptacle 140 is preferably formed between apertures 134 a and 134 b.Prong receptacle 140 is sized and shaped to receive prong 114 thereinwhen plug portion 102 is inserted into receptacle portion 104.

Since prong 114 extends from second half-section 106 b of housing 106 ofplug portion 102, plug portion 102 will not enter receptacle portion 104unless plug portion 102 is in the proper orientation. In this manner, itis ensured that power pin 108 is in electrical contact withcorresponding contact terminal 138 a. As can be appreciated, connectorswhich do not include prongs 114 are still connectable to receptacleportion 104 (i.e., backward compatible). However, electrical contacts110 associated with prong 114 are designed to further enhance theelectrical connection between the instrument and the generator and givethe surgeon more feedback at the operative site. For example,commonly-owned and concurrently-filed U.S. Patent Application No.[11697(203-3624)] entitled “ELECTROSURGICAL PENCIL WITH IMPROVEDCONTROLS” and PCT Application Serial No. PCT/US03/22900 entitled“ELECTROSURGICAL PENCIL WITH DRAG SENSING CAPABILITY” describe severalfeatures which would typically utilize the additional electricalcontacts 110 in prong 114 to enhance feedback to the surgeon at theoperative site, e.g., mode or power settings or sensors for movement,position, drag or temperature.

Preferably, as seen in FIGS. 5 and 6, prong receptacle 140 includes alower portion 140 a configured and dimensioned to receive prong 114, asdescribed above. Prong receptacle 140 is dimensioned to have an overallwidth which is greater than about 0.39 inches and an overall heightwhich is greater than about 0.324 inches. It is envisioned that, prongreceptacle 140 can further include an upper portion 140 b which isintegral with lower portion 140 a and defines a prong receptacle 140having an “L-shaped” cross-sectional profile. In this manner, prongreceptacle 140 can receive prongs having any number of cross-sectionalprofiles, including and not limited to, rectangular (e.g. prong 114),square and “L-shaped” (see FIGS. 10 and 11). Moreover, “L-shaped” prongreceptacle 140 defines a corner 140 c which is shaped and sized to blockthe insertion of a traditional three pin plug when the traditional plugis being inserted upside down.

With continued reference to FIGS. 5 and 6, prong receptacle 140 includesa plurality of openings 142 formed in a rear wall 144 thereof forpermitting passage of contact pins 146, preferably spring-type contactpins, therethrough. In this manner, when plug portion 102 is insertedinto receptacle portion 104, electrical contacts 110 of prong 114 willelectrically engage pins 146.

As best seen in FIG. 5, prong receptacle 140 can include four openings142 formed in lower portion 140 a and two openings 142 formed in upperportion 140 b. While such an arrangement is shown and described, it iswithin the scope of the present disclosure to include various otherarrangements including various numbers of pins 146.

With reference to FIGS. 2-9, connector system 100 further includes atactile feedback mechanism 150 (see FIG. 9) for securing plug portion102 into receptacle portion 104, for providing positive feedback to theuser that plug portion 102 has been fully inserted into receptacleportion 104, and for compensating for increasing resistance that existsas prong 114 enters into prong receptacle 140 and engages pins 146.

Tactile feedback mechanism 150 includes a first post 152 extendingthrough and pivotally supported on receptacle portion 104. Preferably,first post 152 is spring biased by a spring member 154. Tactile feedbackmechanism 150 further includes a second post 156 extending through andsupported on receptacle portion 104. A linkage member 158 extendsbetween first post 152 and second post 156. Linkage member 158 includesa first arm 158 a extending radially from first post 152 and a secondarm 158 b supported on and extending from second post 156.

A camming pin 160 extends through a distal end of first arm 158 a andincludes a first portion 160 a which is slidably receivable in anelongate slot 162 (see FIG. 2) formed in second arm 158 b and a secondportion 160 b, extending in an opposite direction to first portion 160a, which is slidably receivable in an arcuate slot 164 formed in prongreceptacle 140 (see FIGS. 3, 6 and 7). First portion 160 a is biased tothe distal-most position of elongate slot 162 by a spring 166 disposedwithin second arm 158 b. Second portion 160 b extends through arcuateslot 164 an amount sufficient to be engagable with an “L-shaped” grooveand/or recess 148 formed in a lower surface of prong 114 (see FIGS. 3, 4and 9) in order to define a bayonet-type engagement. Alternatively,second arm 158 b may extend “opposite” first post 152 and be joined by atension spring (not shown) to first post 152.

In use, with camming pin 160 initially positioned near the entrance ofprong receptacle 140, as prong 114 enters prong receptacle 140, secondportion 160 b of camming pin 160 enters into and engages groove 148 ofprong 114. As prong 114 is further advanced, camming pin 160 rides alongarcuate slot 164 and elongate slot 162, thereby compressing spring 166.Once prong 114 is advanced beyond a point of criticality, spring 166expands and thus drives camming pin 160 through the remainder of arcuateslot 164 thereby drawing prong 114 into prong receptacle 140.

It is envisioned that spring 154 may provide an additional safetyfeature as well. For example, spring 154 is provided in pin 152 to allowa mating chamfer 153 on pin 152 (FIG. 12) to ride up and over thechamfer 151 (FIG. 3) on plug 102. This is necessitated to allow plug 102to be inserted in the event that the cam is disengaged prior to beingpulled back to the proximal position upon removal of the last plug 102to have been inserted.

As seen in FIGS. 1, 2, 4 and 7-8, connector system 100 further includessymbology 170 provided on a surface of plug portion 102, preferably onan outer surface of first half-section 106 a of housing 106. Symbology170 can include and is not limited to at least one of the following: barcodes, UPC codes, Postnet. Data Matrix, Maxi Code, Aztec Code and thelike. Preferably, symbology 170 includes at least one Aztec code,preferably, a pair of Aztec codes positioned side-by-side.

Aztec Code is a high density two dimensional matrix style bar codesymbology that can encode up to 3750 characters from the entire 256 byteASCII character set. The Aztec code symbol is built on a square gridwith a bulls-eye pattern at its center. Data is encoded in a series of“layers” that circle around the bulls-eye pattern. Each additional layercompletely surrounds the previous layer thus causing the symbol to growin size as more data is encoded yet the symbol remains square.

In this manner, each electrosurgical instrument 12 is provided with acharacteristic symbology 170 containing information regarding theoperative parameters for that particular electrosurgical instrument,such as, for example, the operative RF energy setting, the operativewaveform setting, and the algorithm for interpreting signals oncontact(s) 110 and pin(s) 146.

Connector system 100 can further include a symbology reader and/orscanner (not shown) operatively supported in receptacle portion 104.Accordingly, when plug portion 102 is mated with receptacle portion 104,the reader scans and reads the operative parameters contained in thecharacteristic symbology 170 and transmits the operative parameters toelectrosurgical generator 14 which in turn automatically configuresand/or sets itself to supply operative parameters (e.g., preset ranges,preferred settings and the like) to electrosurgical instrument 12.Alternatively, electrosurgical generator 14 can be engaged with a datatable which, once the instrument is identified, will transmit theappropriate RF parameter to the identified instrument. In addition, asdescribed above, symbology 170 can also be used as a positive engagementmechanism. For example, the symbology must be aligned or in a positionto allow the instrument to operate or to allow the instrument to operatein an enhanced mode.

For example and with respect to FIG. 6, receptacle 140 may containadditional symbology 170′ on the interior surface opposite the scannerwindow similar to that on plug 12. The symbology 170′ is positionedbetween the power pin and the next adjacent pin. The scanner will thenread the symbology 170′ whenever a plug is not inserted. When a plug isinserted, the symbology 170′ will be blocked and the scanner will thenread the symbology 170 on the plug 102 to determine pencil type and theappropriate electrosurgical settings associated that that particularpencil. If the symbology 170′ is blocked but no new symbology 170 isidentified, then the generator will determine that the plug 102 is of anold style pencil without enhanced capabilities (e.g., an E2525 or E2516Electrosurgical Pencil sold by Valleylab—a division of Tyco HealthcareLP in Colorado). Old style pencils will respond to switch signals onpins 138 b and 138 c outputting RF on a pin 138 as called for by thesurgeon. The symbology 170′ in the receptacle is preferably positionedsuch that flying leads from existing devices will not obscure thesymbology 170′ and therefore will not enable the electrosurgicalgenerator to output RF through pin 108.

It is envisioned that connector system 100 can include a positiveengagement mechanism configured and adapted to ensure proper engagementof prong portion 102 in receptacle portion 104 prior to allowingactivation of electrosurgical instrument 12. For example, the positiveengagement mechanism may include an optical coupler pair (e.g., anoptical coupler member operatively associated with prong portion 102 anda cooperating coupler member operatively associated with receptacleportion 104, for example, reflective diodes), mechanical coupler pairs,electromechanical coupler pairs, and/or bar code readers. In addition,the positive engagement mechanism can be configured and adapted to notbe activated and/or triggered by insertion of “flying leads”, from priorart instruments, into receptacle portion 104 thereby preventingactivation of such instruments.

Turning now to FIGS. 10 and 11, a plug portion, in accordance with analternate embodiment of the present disclosure, is designated generallyas 202. Plug portion 202 is similar to plug portion 102 and will only bedescribed in detail to the extent necessary to identify differences inconstruction and/or operation.

Plug portion 202 includes a prong 214 extending from housing 206. Inparticular, prong 214 includes a first portion 216 extending from firsthalf-section 206 a of housing 206 and a second portion 218 extendingfrom second half-section 206 b of housing 206. Preferably, secondportion 218 of prong 214 has a width which is greater than a width offirst portion 216. In this manner, when first and second half-sections206 a, 206 b of housing 206 are joined to one another, prong 214 has anL-shaped transverse cross-sectional profile. In particular, prong 214 isconfigured and dimensioned to be received in complementary shaped prongreceptacle 140 of receptacle portion 104 (see FIGS. 4 and 5).

Prong 214 includes a plurality of contacts 210 exposed along a frontsurface thereof. In particular, prong 214 includes a first set ofcontacts 210 a, preferably two, exposed along a front surface of firstportion 216 of prong 214 and a second set of contacts 210 b, preferably,four, exposed along a front surface of second portion 218 of prong 214.

Accordingly, the first set of contacts 210 a electrically engage pins146 extending from openings 142 formed in upper portion 140 b of prongreceptacle 140. In addition, the second set of contacts 210 belectrically engage pins 146 extending from opening 142 formed in lowerportion 140 a of prong receptacle 140.

Turning now to FIGS. 12 and 13, a receptacle portion, in accordance withan alternate embodiment of the present disclosure, is designatedgenerally as 204. Receptacle portion 204 is similar to receptacleportion 104 and will only be described in detail to the extent necessaryto identify differences in construction and/or operation.

Receptacle portion 204 includes a prong receptacle 240 having asubstantially rectilinear cross-sectional profile. Prong receptacle 240is configured and dimensioned to receive prong 114 and/or prong 214therein. Prong receptacle 240 includes a plurality of openings 242formed in a rear wall 244 thereof. Preferably, two rows of openings 242are formed, a first row including three openings and a second rowincluding four openings. A pin 146 (not shown) can extend from eachopening 242 for electrical engagement with contacts 210.

Turning now to FIG. 14, a plug portion, in accordance with yet anotheralternate embodiment of the present disclosure, is designated generallyas 302. Plug portion 302 includes a housing 306 including a firsthalf-section 306 a and a second half-section 306 b defining a planetherebetween. Housing 306 further includes a first side portion 308 aand a second side portion 308 b. Preferably, second side portion 308 bhas a length which is greater than a length of first side portion 308 a.

As seen in FIG. 14, power pin 108 extends distally from first sideportion 308 a. Preferably, power pin 108 extends from first side portion308 a an amount sufficient such that a distal-most end of power pin 108is substantially even with a distal-most surface of second side portion308 b.

Second side portion 308 b includes a plurality of contacts 310 exposedalong the distal-most surface thereof. In particular, second sideportion 308 b includes eight contacts 310 exposed along a distal-mostsurface thereof. Preferably, contacts 310 are in the same plane as powerpin 108.

It is envisioned that electrosurgical generator 14 includes a receptacleportion (not shown) configured and dimensioned to receive and mate withplug portion 302.

While several embodiments of the disclosure have been shown in thedrawings, it is not intended that the disclosure be limited thereto, asit is intended that the disclosure be as broad in scope as the art willallow and that the specification be read likewise. Therefore, the abovedescription should not be construed as limiting, but merely asexemplifications of preferred embodiments.

Those skilled in the art will envision other modifications within thescope and spirit of the claims appended hereto.

1. A connector system for connecting an electrosurgical instrument to anelectrosurgical generator, the connector system comprising: a plugportion connectable to the electrosurgical instrument, said plug portionincluding a plurality of pins and a prong that extend therefrom, saidprong adapted to retain one or more electrical contacts therein; and aplug receptacle portion disposed within the generator, said plugreceptacle portion defining a recess for receiving at least a portion ofsaid plug portion therein, said plug receptacle portion including aplurality of apertures for receiving respective ones of said pluralityof a prong receptacle for receiving said prong.
 2. The connector systemaccording to claim 1, wherein the plug portion includes a plug housingconfigured to receive a connecting wire therein, the connecting wirehaving a power pin extending therefrom.
 3. The connector systemaccording to claim 2, wherein the power pin is positioned closer to afirst side edge of the plug housing than a second side edge thereof,wherein the second side edge is opposite the first side edge thereof. 4.The connector system according to claim 3, wherein the plug portionfurther includes at least one position pin extending from the plughousing.
 5. The connector system according to claim 4, wherein a firstposition pin extends from the plug housing near the second side edge andin substantially the same direction as the power pin, and a secondposition pin extends from the plug housing at a location off-set fromthe center thereof and in the same direction as the power pin. 6.(canceled)
 7. (canceled)
 8. The connector system according to claim 2,wherein the prong is positioned closer to a first side edge of the plughousing than a second side edge thereof, wherein the second side edge isopposite the first side edge thereof.
 9. The connector system accordingto claim 5, wherein the prong is positioned between the power pin andthe second position pin.
 10. The connector system according to claim 1,wherein the prong includes a plurality of electrical contacts.
 11. Theconnector system according to claim 1, wherein the prong has a firstgeometry and said prong receptacle has a second geometry different fromthe first geometry which is matingly compatible with said first geometryof said prong.
 12. The connector system according to claim 1, whereinthe prong has at least one of a generally L-shaped cross-sectionalprofile and a rectilinear-shaped profile.
 13. (canceled)
 14. (canceled)15. (canceled)
 16. The connector system according to claim 1, whereineach aperture includes a contact terminal operatively associatedtherewith.
 17. The connector system according to claim 1, wherein theprong receptacle has an L-shaped cross-sectional profile.
 18. Theconnector system according to claim 17, wherein the L-shapedcross-sectional profile defines a comer that blocks insertion of a threepin plug into the plug receptacle when the three pin plug is beinginserted upside down.
 19. The connector system according to claim 16,wherein the plug receptacle portion includes at least one contact pinextending therethrough.
 20. The connector system according to claim 19,wherein the contact pins are positioned to contact a respective ones ofthe electrical contacts of the prong.
 21. The connector system accordingto claim 20, wherein the prong has an overall width which is less thanabout 0.43 inches and an overall height which is less than about 0.38inches.
 22. The connector system according to claim 21, wherein theprong receptacle has an overall width which is greater than about 0.39inches and an overall height which is greater than about 0.324 inches.23. The connector system according to claim 1, further comprising atactile feedback mechanism for providing positive feedback to the userthat the plug portion has been properly inserted into the plugreceptacle portion.
 24. (canceled)
 25. The connector system according toclaim 2, wherein the plug portion includes symbology provided on asurface thereof.
 26. The connector system according to claim 25, whereinthe symbology includes information regarding the operative parameters ofthe electrosurgical instrument.
 27. A connector system for couplingelectrosurgical instruments to electrosurgical generators, the connectorsystem comprising: a first plug portion connectable to a firstelectrosurgical instrument, the first plug portion of the firstelectrosurgical instrument having a first configuration; and a plugreceptacle portion supported on an electrosurgical generator, the plugreceptacle portion being configured to receive the first plug portion ofthe first electrosurgical instrument and further configured to receive asecond plug portion of a second electrosurgical instrument. 28.(canceled)
 29. The connector system according to claim 27, wherein thefirst plug portion further includes a prong having a particular shapeextending therefrom.
 30. The connector system according to claim 29,wherein the prong has an L-shaped cross-sectional profile and includesat least one electrical contact.
 31. (canceled)
 32. The connector systemaccording to claim 30, wherein the plug receptacle portion includes aprong receptacle formed therein configured and dimensioned to receivethe prong therein.
 33. The connector system according to claim 32,wherein the prong receptacle includes at least one pin extendingtherefrom for contact with a corresponding electrical contact.
 34. Theconnector system according to claim 27, further comprising a tactilefeedback mechanism for providing positive feedback to the user that thefirst plug portion has been properly inserted into the plug receptacleportion.
 35. The connector system according to claim 27, wherein thefirst plug portion includes symbology provided on a surface thereof, thesymbology including information regarding the operative parameters ofthe first electrosurgical instrument.
 36. The connector system accordingto claim 32, wherein the prong has an overall width which is less thanabout 0.43 inches and an overall height which is less than about 0.38inches.
 37. (canceled)
 38. (canceled)
 39. The connector system accordingto claim 32, wherein the prong receptacle is configured and dimensionedto block insertion of the second a plug portion that is being insertedin an incorrect orientation.
 40. (canceled)